JP2007104985A - Fertilizer feed amount controlling mechanism of fertilizer applicator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fertilizer feed amount controlling mechanism of an ambulatory fertilizer applicator for dry field farming which applicator comprises inserting a nozzle into the field and applying fertilizer with a predetermined interval, wherein more widely controlling the fertilizer feed amount is made possible so as to perform control of the most suitable feed out amount to plural different crops. <P>SOLUTION: A fertilizer application rate controlling means 41 for plunger pumps 32, 32 intermittently feeding fertilizer to fertilizing nozzles 25, 25 is composed of: compatible pushing arms 35, 65 swingably pivoted on a feed driving device 38 driving the plunger pumps 32, 32; an actuation link 42 connecting its one end to both pushing arms 35, 65 and formed a contacting part 44 contacting with plungers 36 set in the plunger pumps 32, 32; and a control link 43 connecting the other end of the actuation link 42 with the both pushing arm 35, 65. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a fertilizer feed amount adjusting mechanism in a field-operated walking fertilizer that inserts a fertilizer nozzle into the ground and fertilizes fertilizer at a predetermined interval.

Conventionally, in a general field-type walking fertilizer, a fertilizer nozzle that is driven up and down is provided on both sides of the machine body, and when this fertilizer nozzle is driven into the ground, a fertilizer tank passes through a plunger-type discharge pump. There is known a configuration in which the fertilizer that is pumped in this way can be fertilized in a dotted manner at a predetermined interval (for example, see Patent Document 1).
JP 2002-360025 A (page 3-6, FIGS. 1 to 3)

  And in the conventional thing mentioned above, in order to make it easy to adjust the feed amount (fertilization amount) of the fertilizer suitable for the target crop by adjusting the reciprocating stroke of the plunger of the discharge pump, A pushing arm that faces the discharge pump is pivotally supported by the feeding drive device to be driven, and an operating link connected to the pushing arm is provided with a contact portion with a plunger, and the operating link is rocked with respect to the pushing arm. In order to keep the moving angle constant, an adjustment link for connecting the operating link and the push arm is provided, and the push arm has a plurality of connection holes for connecting the adjustment links arranged in rows. The fertilizer is configured so that the swing start position of the abutting portion with respect to the plunger can be changed by selecting a desired connection hole from the plurality of connection holes. And a feed amount adjusting mechanism.

  However, since the fertilizer feed amount adjusting mechanism described above is compactly formed in a limited narrow space, it is difficult to adjust the optimal fertilizer feed amount for a plurality of different crops. It was expected to develop a walking fertilizer that can adjust the feed rate of a wide range of fertilizers.

  The present invention has been made to solve the above-described problems, and includes a nozzle for fertilization, a plunger pump that intermittently feeds fertilizer to the nozzle, a feeding drive device that drives the plunger pump, and the plunger In a fertilizer applicator provided with fertilizer amount adjusting means for adjusting the feed amount of fertilizer in the pump, the fertilizer amount adjusting means is pivotally supported on a feed drive device so as to be swingable and compatible with a push arm and both push arms. It is composed of an operating link that connects one end and is provided with a contact portion with a plunger included in the plunger pump, and an adjustment link that connects the other end of the operating link and both pushing arms, and replaces both pushing arms. Thus, the reciprocating stroke of the plunger is changed to enable the fertilizer feed amount to be adjusted.

  According to the present invention, the fertilizer amount adjusting means for adjusting the fertilizer feed amount in the plunger pump is connected to the push-in arm which is swingably supported by the feed-out drive device, and one end is connected to both push-arms. And an adjustment link that connects the other end of the operation link and both pushing arms, and by exchanging both pushing arms, By changing the reciprocating stroke to enable adjustment of the fertilizer feed amount, it becomes possible to adjust the feed amount of fertilizer intermittently fed to the fertilizer application nozzle by simply changing both pushing arms, It becomes possible to easily select the optimal amount of fertilizer to be applied to the fertilization target crop, and versatility is improved. In addition, the amount of fertilizer application can be increased without increasing the cylinder diameter of the plunger pump, which is excellent in terms of cost.

  Next, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a side view showing a traveling machine body 11 of a walking type fertilizer machine that applies fertilization to a field field. The traveling machine body 11 has an engine 14 at a front portion of a body frame 13 having left and right traveling wheels 12. While being mounted, a fertilizer tank 16 for filling a fertilizer such as liquid fertilizer and a fuel tank 17 are disposed on a fertilizer receiving plate 15 provided on the upper portion of the engine 14.

  A bumper 18 as a safety frame is provided at the forefront of the body frame 13. On the other hand, a pair of left and right tail wheels 19 are mounted on the rear end of the body frame 13 so as to be freely rotatable, and left and right operation handles 21L and 21R are screwed to a support frame 20 that is erected above. ing.

  A mission case 22 is provided behind the engine 14. The driving force of the engine 14 is transmitted to the left and right traveling wheels 12 pivotally supported at the lower portion of the mission case 22, while the upper portion of the mission case 22 is not shown. The driving force output from the output shaft is transmitted to fertilizing nozzles 25 and 25 provided on both sides of the traveling machine body 11 via a power transmission unit 24 built in a transmission case 23 behind the transmission case 22.

  Then, crankshafts 26L and 26R projecting independently from the left and right side surfaces of the upper part of the transmission case 23, a crank arm 27 coupled to the projecting ends of the crankshafts 26L and 26R, and a rod 28 coupled to the crank arm 27 And the like, and a fertilizer nozzle 25, 25 is attached to the tip of the rod 28, and the fertilizer is driven up and down along the guide groove 31a of the side guide plate 31 via the slider crank mechanism 28. When the nozzles 25, 25 enter the ground and reach the bottom dead center position, they are provided with plunger pumps 32, 32 which are feeding devices for feeding fertilizer to the fertilizer application nozzles 25, 25. Further, by adjusting the height of the pair of left and right tail wheels 19 provided at the rear end portion of the machine body frame 13, the insertion depth of the fertilization nozzles 25, 25 (instillation fertilization depth) can be adjusted. It is like that.

  The fertilizer such as liquid fertilizer in the fertilizer tank 16 is supplied to the plunger pumps 32 and 32 from the hose 33 piped below the fertilizer tank 16 via the constant capacity pump 34 disposed on the front side of the traveling machine body 11. It has come to be.

  More specifically, the plunger pumps 32 and 32 are self-contained plunger-type discharge pumps, and the fertilizer nozzles 25 and 25 enter the ground and reach the bottom dead center position. When the pushing arm 35 (65) that swings up and down by the rotation of the cam 52 provided in 51 pushes down the head A (bolt 45) of the plunger 36, the fertilizer in the cylinders of the plunger pumps 32 and 32 is pumped. In the process in which the fertilizer nozzles 25 and 25 are moved up to the top dead center position, the plunger 36 is lifted by the return action of the compression spring 53 inserted in the plunger pumps 32 and 32, and accordingly, the constant capacity from the fertilizer tank 16 is increased. Fertilizer supplied via the pump 34 can be sucked into the cylinders of the plunger pumps 32 and 32. You have me.

  Moreover, the discharge ports 32a and 32a of the plunger pumps 32 and 32 and the fertilizer application nozzles 25 and 25 corresponding to both the pumps 32 and 32 are connected via discharge hoses 37 and 37, whereby the left plunger pump By driving 32, the fertilizer is fed from the fertilizer tank 16 and sent to the left fertilizer nozzle 25. By driving the right plunger pump 32, the fertilizer is fed from the fertilizer tank 16 and sent to the right fertilizer nozzle 25, and each fertilizer nozzle 25, The fertilizer can be discharged from 25 intermittently. At this time, the amount of fertilizer fed (fertilization) by driving the plunger pumps 32 and 32 changes depending on the stroke of the plunger 36, and the amount of fertilizer fed increases in proportion to the length of the stroke.

  Next, the structure of the feeding drive device 38 that intermittently drives the plunger pumps 32 and 32, which are feeding devices for feeding the fertilizer, will be described. FIG. 2 is a plan sectional view showing the configuration of the feeding drive device 38, and FIGS. 3 and 4 are ranges for adjusting the reciprocating motion stroke of the plunger 36 by the push-in arms 35, 65 compatible with the fertilizing amount adjusting means 41. The projecting end portions of the crankshafts 26L and 26R that project independently from the left and right side surfaces of the upper portion of the transmission case 23 are interchangeable with plates facing the rear plunger pumps 32 and 32. The push arm 35 (FIG. 3) and 65 (FIG. 4) are shown as being integrally attached.

  Then, one end of an operating link 42 composed of a pair of left and right plates 42a, 42a is connected to the rear ends (tips) of the push arms 35, 65 via a connecting pin 40 so as to be rotatable. The other end is connected again to the push-in arms 35 and 65 via an adjustment link 43 comprising a pair of left and right plates 43a and 43a. Further, a plurality of connection holes for connecting an adjustment link 43, which will be described in detail later, are arranged in a row above the push arms 35 and 65, and a desired connection hole is selected from the plurality of connection holes. As a result, the swing start position of the roller 44 that is a contact portion with the plunger 36 that is pivotally supported at the substantially intermediate portion of the operation link 42 can be changed.

  That is, the pushing arms 35 and 65, the operation link 42, and the adjustment link 43 form link devices as fertilization amount adjusting means 41 on both the left and right sides of the upper portion of the transmission case 23. The crankshafts 26L and 26R that protrude independently from the left and right side surfaces of the upper portion of the case 23 are supported so as to freely swing up and down.

  The rollers 44 are arranged almost directly above the plungers 36 of the corresponding plunger pumps 32, 32, and are moved upward from the upper end surface of the plunger 36 when the rollers 44 swing with the vertical swing of the fertilizer application amount adjusting means 41. The push arms 35 and 65, the operation link 42, and the adjustment link 43 are dimensioned so that the roller 44 comes into contact with the upper surface of the bolt 45 projecting from the bolt 45.

  On the other hand, drive arms 46L and 46R are attached to the ends of the crankshafts 26L and 26R in the transmission case 23 in the front-rear direction, and a support shaft 47 facing in the left-right direction is provided on the front end side of the drive arms 46L and 46R. In addition to being fixed, a collar 49 is rotatably attached to the support shaft 47 via a bush 48. A relay shaft 51 that is rotationally driven by a driving force from the mission case 22 side is pivotally supported below the collar 49, and a cam 52 corresponding to the collar 49 is fixed to the relay shaft 51.

  The peripheral surface (cam surface) of the cam 52 is in contact with the outer periphery of the collar 49, and the collar 49 periodically moves in the vertical direction as the relay shaft 51 rotates. That is, the drive arms 46L and 46R periodically repeat vertical swinging such that the crankshafts 26L and 26R swing back upward from the initial position by a predetermined angle and return to the initial position.

  At this time, the crankshafts 26L and 26R swing at a predetermined angle integrally with the drive arms 46L and 46R, and accordingly, the roller 44 provided in the fertilizer application amount adjusting means 41 swings downward by a predetermined angle from the initial position. Repeated periodic up and down swinging such as returning to the initial position again. That is, the fertilizer application amount adjusting means 41 generally swings intermittently at a predetermined angle, and the roller 44 is within the one-cycle swing range of the intermittent fertilizer application amount adjusting means 41. Is in contact with the upper surface of the bolt 45 for a predetermined time.

  When the roller 44 comes into contact with the upper surface of the bolt 45, the plunger 36 is pushed down until the roller 44 advances to the lower limit (bottom dead center) of the swing, and the roller 44 swings upward (top dead center side) from the swing lower limit. As it moves, the plunger 36 rises by the return action of the compression spring 53 inserted in the plunger pumps 32, 32 until the roller 44 returns to the swing upper limit position (initial position) (at the latest, the roller 44 is set to the initial position). The plunger 36 returns to the initial position until it returns.

  The reciprocating stroke of the plunger 36 provided in the plunger pumps 32, 32 described above is adjusted by connecting a plurality of connecting holes 35a to 35f, 65a formed in rows above the pushing arms 35, 65 constituting the fertilizer application amount adjusting means 41. A desired connecting hole is selected from -65e, and the connecting link 53 is connected to the selected connecting hole using the connecting pin 53, thereby changing the connecting angle of the operating link 42 with respect to the pushing arms 35 and 65. This is done by changing the height (swing start position) of the roller 44 relative to the plunger 36 (the upper surface of the bolt 45).

  That is, by changing the connecting holes 35a to 35f and 65a to 65e of the push-in arms 35 and 65 that connect the adjusting link 43, the swing start position of the roller 44 can be adjusted. The positional relationship in the height direction between the roller 44 and the plunger 36 (the upper surface of the bolt 45) at the upper limit of the swing can be changed, and the roller 44 and the upper surface of the bolt 45 are moved from the start of swinging of the fertilizing amount adjusting means 41. The swing angle until the contact can be adjusted.

Moreover, the reciprocating stroke of the plunger 36 described above is the fertilizing amount adjusting means 41,
When the pushing arm 35 is employed, adjustment is possible within the range of S1 at the maximum, S2 at approximately the middle, and S3 at the minimum as shown in FIGS. 3 (a) to 3 (c). As shown in 4 (a) to (c), the adjustment can be made within the range of S4 at the maximum, S5 at the middle, and S6 at the minimum. At this time, the reciprocating stroke of the plunger 36 by the push arms 35, 65 is S1>S2>S4>S5>S3> S6, and the fertilizer feed amount adjustment range by the push arms 35, 65 partially overlaps. It is set to do.

  That is, according to the fertilizing amount adjusting means 41 described above, the fertilizer feed amount can be adjusted over a wide range by changing the reciprocating motion stroke of the plunger 36 only by exchanging the pushing arms 35 and 65. In addition, it is possible to easily select the optimal amount of fertilizer to be applied to the fertilization target crop, thereby improving versatility. In addition, the amount of fertilizer application can be increased without increasing the cylinder diameter of the plunger pumps 32, 32, which is excellent in terms of cost.

  The pushing arms 35 and 65 are pivotally supported by the feeding drive device 38 and face the plunger pumps 32 and 32. One end of the pushing arms 35 and 65 is connected to the pushing arms 35 and 65 and the abutting portion with the plunger 36 is provided. The fertilizer application amount adjusting means 41 is integrally configured for each of the push-in arms 35 and 65 by the operation link 42 provided with the adjustment link 43 that connects the other end of the operation link 42 and the push-in arms 35 and 65. In this case, both fertilization amount adjusting means 41 can be easily exchanged in units of assembly, so that workability is improved.

  Next, an embodiment different from the fertilization amount adjusting means 41 described above will be described. First, the fertilizer application amount adjusting means 71 shown in FIG. 5A includes a pushing arm 72 pivotally supported by the feeding drive device 38 so as to face the plunger pump 32, and a proximal end at the distal end of the pushing arm 72. An arc-shaped plate 73 having a threaded portion, an operating link 42 connected to the tip of the arc-shaped plate 73 and provided with a contact portion (roller 44) with the plunger 36, and the other end of the operating link 42 and pushing. The fertilization amount adjusting means 71 is integrally formed by an adjustment link 43 that connects the arm 72.

  Then, according to the fertilizing amount adjusting means 71, the arcuate plate 73 shown in FIG. 5 (a) is screwed into the state shown in FIG. By doing so, the stroke from the reciprocating stroke S7 of the plunger 36 shown in FIG. 5A to the state of the reciprocating stroke S8 of the plunger 36 shown in FIG. 5B can be substantially halved.

  Moreover, the fertilizer application amount adjusting means 81 shown in FIG. 6A is provided with two connecting holes 82a and 82b for connecting one end of the operating link 42 at the tip of the pushing arm 82, and is connected as shown in FIG. 6A. By switching from the state where one end of the operating link 42 is connected to the hole 82a to the state where one end of the operating link 42 is connected to the connecting hole 82b as shown in FIG. 6B, the reciprocating stroke of the plunger 36 is changed to S9. To S10 so that it can be substantially halved.

  7 (a) is connected to a pushing arm 92 pivotally supported by the feeding drive device 38 so as to face the plunger pump 32, and to the tip of the pushing arm 92. As shown in FIG. At the same time, the fertilizer application amount adjusting means 91 is integrated by an operating link 42 provided with a large-diameter roller 93a that is in contact with the plunger 36, and an adjusting link 43 that connects the other end of the operating link 42 and the pushing arm 92. It is structured.

  The fertilizing amount adjusting means 91 can be easily obtained by replacing the large-diameter roller 93a provided on the operation link 42 as shown in FIG. 7 (a) with the small-diameter roller 93b as shown in FIG. 7 (b). Further, the reciprocating stroke of the plunger 36 is configured to be substantially halved from S11 to S12.

The side view of a walking type fertilizer applicator. The top view which shows the structure of a paying-out drive apparatus and a fertilization amount adjustment means (1st Example). The side view which shows the adjustment method of the reciprocating motion stroke of a plunger. (Discharge amount large side) The side view which shows the adjustment method of the reciprocating motion stroke of a plunger. (Discharge amount small side) The side view which shows the structure of a fertilization amount adjustment means (2nd Example). The side view which shows the structure of a fertilization amount adjustment means (3rd Example). The side view which shows the structure of a fertilization amount adjustment means (4th Example).

Explanation of symbols

25 Nozzle 32 Plunger Pump 35 Pushing Arm 36 Plunger 38 Feeding Drive Device 41 Fertilizer Amount Adjustment Means 42 Actuation Link 43 Adjustment Link 44 Abutment 65 Pushing Arm

Claims (1)

  Nozzle for fertilization (25, 25), plunger pump (32, 32) for feeding fertilizer intermittently to the nozzle (25, 25), and feeding drive device (38) for driving the plunger pump (32, 32) ) And fertilizer application means (41) for adjusting the fertilizer feed amount in the plunger pump (32, 32), the fertilizer application rate adjustment means (41) is connected to the feed drive device (38). A pusher arm (35, 65) that is pivotally supported and interchangeable, and a plunger (36) provided at one end of the pusher arm (35, 65) and provided in the plunger pump (32, 32). It comprises an actuating link (42) provided with a contact portion (44), and an adjusting link (43) for connecting the other end of the actuating link (42) and the push arms (35, 65). By exchanging arm (35,65), said plunger (36) feeding amount adjusting mechanism of manure in fertilization machine by changing the reciprocating stroke is characterized in that to allow the feeding amount adjusting fertilizer.

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